DE2915638A1 - CAMERA WITH AUTOMATIC FOCUSING - Google Patents

Description

Patent Attorneys pfpj, -Ing. Curt Wallach D-ipl -.- Ing. Günther Koch

2915638 Dipl.-Phys. Dr Tino Haibach

"Λ3 * Dipl.-Ing. Rainer Feldkamp

D-8000 Munich 2 Kaufingerstraße 8 Telephone (0 89) 24 02 75 Telex 5 29 513 wakai d

Date: ^{April 1} , 1979

Our reference: 16 590 -

Applicant: Polaroid Corporation

Technology Square,
Cambridge, Mass. 02139
United States

Name: camera with automatic focus

• 43-

Auto focus camera

The invention relates generally to automatic focusing devices photographic apparatus and in particular control systems for positioning the adjustable focusing lens such apparatus.

Photographic cameras with interchangeable rigid and / or adjustable focusing lenses are widespread. It cameras with an adjustable focus lens are also known which have a focus control system coupled to the lens have to automatically image-forming light rays from a distant object on the film plane of the Focus camera. The control system works in response to the signal from a range finder for the actual Distance between the camera and the distant object. A camera with such a focus control system, where acoustic energy is used to determine distance to the object is disclosed in U.S. Patent 3,522,764 by Biber.

In an adjustable focusing lens, there is a non-linear relationship between the axial position of the movable one Part of such a lens in which a subject to be photographed is in the focal point (focus) of a certain Image plane is located, and the distance from such a subject to this adjustable focusing lens. at corresponding to the construction of an automatic focusing control system for cameras with an adjustable focusing lens in the mentioned US patent this non-linear relationship has to be taken into account. Will the adjustable The focusing lens of such a camera is exchanged for another adjustable focusing lens without a

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due consideration of the relationship between lens position and subject distance for this exchanged lens follows, results in incorrect focusing of the replaced lens if there is a significant difference between the Lens / subject function of both lenses is available.

In order to avoid this disadvantage when changing the lens, the control system of the camera must be easily changeable, to allow adjustment of the other lens to the correct "subject-in-focus" position. Will not be adjustable lens (fixed focus lens) with an existing adjustable focusing lens in an automatic focusing camera combined as if a non-adjustable Telephoto lens is optically coupled with an adjustable focusing lens, so funds must be provided its adjustable for easy adjustment of the scale values for the size of the lens / subject function Focusing lens to compensate for the magnification resulting from the lens with fixed focus.

The present invention, the features of which are set out in the claims, provides a photographic camera provided with an automatic focus control system that has a detachable lens with adjustable or fixed Has focus that includes a device that has a characteristic for an adjustable or fixed lens Has focus, through which the system for automatic focus control can be changed according to the lens characteristics is. In one embodiment of the invention are several such devices mounted in the housing of the camera, and the device with the appropriate lens characteristic is selected by attaching a special lens with a fixed or adjustable focus to the camera.

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In the following the invention is explained in more detail with reference to the drawings explained. It shows:

Fig. 1 is a functional block diagram of a camera with adjustable Focusing lens that has automatic and hand-operated focus controls,

2 shows a graph of a distance function Lens setting / subject distance for an adjustable focusing lens according to Fig. 1,

3 is a functional block diagram of a coupled Rangefinder and part of a focus control system of an adjustable focusing lens, the part of the control system that includes the objective / subject function from the System is removable,

Fig. 4a a camera with a removable adjustable focusing lens, the device for the Generation of the objective / subject function in the control system according to FIG. 3 in the housing of the Lenses for connection to the control system when the lens is attached to the camera,

4b shows a camera with a removable adjustable one Focusing lens in which several devices for generating a lens / subject function are provided, the device for generating a suitable objective / subject function by Attaching the lens to the camera is selected,

■ Β09844 / 081Ί

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5 is a functional block diagram of a coupled range finder and part of a focus control system for an adjustable focusing lens for use with an adjustable one and a non-adjustable focus lens, the part of the control system that has a fixed Focus lens scale factor generated, can be removed from the control system,

6a shows a camera with a removable fixed focus lens, the device for generating the scale factor for the fixed focus lens in the control system according to Fig. 5 is mounted in the lens, so that the connection to the control system occurs when the lens is attached to the camera is,

6b shows a camera with a removable fixed focus lens which has means for selecting the suitable one Scale factor for that attached to the camera body Fixed focus lens, these means being actuated by attaching the lens to the camera,

7 shows the same control system as in FIG. 3 except that the lens-subject function in the Feedback signal circuit is arranged for the lens position, and

Fig. 8 shows the same control system as in Fig. 5 except that the fixed divider (divider) in the Inflow signal circuit is arranged.

The automatic focus control system 10 for the adjustable focusing lens 12 of an instant camera 14 accordingly

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the illustration in Fig. 1 is in part described in U.S. patent applications Ser.No. 729 289 and 865 852 by Shenk, and parts of these application descriptions are accordingly included in the following description. In order to automatically focus the adjustable focusing lens 12, the switch S ₁ must be moved to its fully closed position. The automatic focusing begins by closing the switch S ₁ , if the switch S operated by the lens, which is connected to the lens 12 via mechanical connecting members 16, has been set in its open position by the lens movement, and if an adjustable closure element 18 is so arranged is that manual access to the manually movable focusing wheel 20 is prevented and the control logic 22 is functional. If the switch S _{1 is} closed under these conditions, there is a coupling of an energy source (not shown), which is connected to the connection 24, to the input of the range finder 26 via the control logic 22, so that the range finder 26 is activated. The activated range finder 26 acoustically determines the distance to a subject 28 to be photographed. A more detailed description of the operation of the range finder 26 is contained in the aforementioned Shenk patent applications. When the distance to the subject 28 is determined, the range finder 26 causes the automatic focus control 30 to apply an adjustment force to a lens portion so that the lens 12 forms a focused image of the subject 28 in the film plane 32 when the shutter mechanism 34 of the camera is open Position has been actuated by a signal coming via the signal 36 from the automatic focus control 30. As already mentioned, it is an instant camera 14, so that after the actuation of the shutter mechanism 34 has ended, the film processing process and the transport cycle

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38, the footage moving out of the camera 14. If the S. switch is in its open position when the filra processing and transport signal 40 to the automatic focus control 30 is guided, the automatic focus control 30 causes the movable part of the adjustable or focusable lens 12 is moved to a point in which the switch operated by the lens movement S via the mechanical connection 16 into its open Position is moved.

In order to focus the lens 12 by hand, the adjustable shutter 18, which blocks access to the focusing wheel 20 during automatic focusing, is moved away by hand so that the person taking the photograph can operate the focusing wheel 20. The adjustment of the closing member 18 causes a change in the control logic 22, so that the range finder 26 is ineffective. By operating the switch S ₁ by hand to its closed position in order to take a photograph, an actuation signal is supplied via the path 42 to the shutter mechanism 34 of the camera. The shutter is normally operated after focusing is finished. After the shutter mechanism 34 has been fully actuated, the film development process and the transport cycle 38 are automatically initiated.

In order to reset the focus control system to its automatic mode of operation, the closing element 18 is via the Hand-focussing wheel 20 reset, which means that the control logic 22 the range finder 26 again in function. When the lens operated switch S is operated and in its closed position by moving the lens 12 through the focusing

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wheel 20 is left, so the automatic Focus control 30 this closed position of the switch S via the circuit path 44 when the closing element has been reset via the hand focusing wheel 20 and caused a drive of the adjustable lens 12 until the switch S, which is mechanically connected via the connection 16 with the lens 12 is coupled, has been brought into its open position by the lens movement 12. The right Function of the control system 10 depends, among other things, on the Relationship between the axial position of the movable part of the adjustable lens 12, in which a photo to be photographed Subject is focused in image plane 32, and the distance between the subject and the lens. These Relationship is shown graphically in FIG.

Fig. 2 shows a typical lens / subject function by the curve 46, the ordinate and abscissa values being adjusted in size to improve the representation are. It will be understood that the function of curve 46 is generally to take the form of a typical lens / subject function and not to perform a scale calibration. The illustration of curve 46 in FIG. 2 shows that between the axial position of the movable part of the lens 12 at which the subject is focused and the distance there is a markedly non-linear relationship between the subject and the lens. It is known that with With a non-focused lens, the lack of focus cannot be easily detected by the human eye, as long as it is like the degree of out of focus in a given area remains, which can be described as the acceptable unsharp area of the lens. The curves 48 and 50, the have the same general shape as curve 46 represent the outer boundaries of the range of blurring for the objective / subject function or the curve 46. From the

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Curves 48 and 50 can be inferred that for a given optical system the actual lens / subject function 46 can be approximated by a piecewise linear curve 52. As long as the piecewise linear curve 52 is is located within the envelope of curves 48 and 50, a subject can be considered focused as the Lens setting and the subject distance are in the graph is located between curves 48 and 50. As in more detail in the aforementioned Shenk filings the lens / subject function represented by curve 52 affects the Adjust the focus lens 12 of Fig. 1 by using the first derivative or the slope of this curve 52 to vary the output of a pulse generator. The output of the pulse generator is in a counter during of the time interval corresponding to the distance to the subject 28 (FIG. 1). The number of pulses in the Counters are included at the end of the time interval, subtracted from the number 128 determined as a scale, is representative for the axial position to which the movable part of the adjustable lens 12 must be moved to focus the subject 28 (Fig. 1) on a particular image plane. This arrangement is functional in the block diagram Iran of Fig. 3 reproduced.

Fig. 3 shows a functional block diagram of a coupled Rangefinder and the part of the control system of an adjustable lens, which the non-linear Relationship between the axial position of the adjustment part of the lens / rä'er the subject to be photographed a certain image plane is focused and the distance of the subject to the lens is taken into account. The control system, of which the control system of FIG. 3 forms a part, is more detailed in the aforementioned Shenk applications

109844/0811 ORIGINAL INSPECTED

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described. According to FIG. 3, the closing of the switch S _{1 r} causes the acoustic distance device 54 to send a surge of ultrasonic energy to the object 58 = at the same time the closing of the switch S ₁ causes the time pulse oscillator or the pulses generator 60 generates a stream of periodic pulses ;. The output of the time pulse oscillator 6 0 is counted by a: distance counter 62 «. The time pulse oscillator 6G continues its operation until an echo from the previously emitted acoustic energy has been reflected by the object 58 and picked up by the acoustic distance device 54. If such an echo is picked up by the acoustic distance device §4, it sends a stop signal to the time pulse oscillator € 0, which ends the flow of periodic pulses. At this moment, the number of counts in the counter 62 representative of the distance between the acoustic distance measuring device 54 and the object 58 "The stream of pulses from the oscillator 60 to the counter 62 was fed continuously to the position counter 64 via a programmable divider 66th The programmable divider 66 reduces the number of pulses delivered to the position counter 64 by the time pulse oscillator. This is done according to the derivative or the inclination of the curve * 52 (Fig. 2). This curve inclination is continuously entered or stored in a function block 68 for the relationship between lens angle and subject distance. The lens / subject function block 68 makes various renders in the input / output or dividing ratio of the programmable divider 66, whereby this AeB.derangen ab * = - are dependent on the number of counts in the distance counter 62 as they were recorded in the objective / subject function block. The points at which these heaäkruaqer, occur are predetermined so that the curve wrapped 52 (Fig. 2) in the by the curves 48 and 50 (Fig. 2)

10 98 4 4 / 08D % - ''.

Area fits in. These points of the ratio change are sometimes also referred to as breakpoints and have in FIG. 2 the reference numeral 70. For each linear section of the curve 52 according to FIG. 1 there is an inflection point, and the dividing ratio of the programmable divider 66 remains constant between adjacent break points. If the Current pulse from the time pulse oscillator 60 upon receipt of an echo in the aforementioned manner by the acoustic distance device 54 terminates, the number of pulses in the position counter 64 is that in the programmable divider 66 were recorded and subtracted from the number 128, representative of the position to which a movable one Part of the focusing lens 12 must be moved to focus a sharp image of the object 58 on a particular image plane. Has once been this number of counts Recorded by the position counter 64, drive means, not shown, are set in function that the Set lens 12 to the correct "subject-in-focus" position. The specific details of these drive means are described in the aforementioned Shenk applications. When the movable part of the focusing lens 12 moves to the correct "subject-in-focus" position, it scans Position sensor 72 from this movement and generates pulses which are representative of the position of this movable lens part. The pulses of this position sensor 52 are fed to a position counter 64, and if the combined The total number of pulses in the position counter 64 is 128, the 128 count decoder 74 produces a "focus" terminated "signal 76. This signal 76 causes the movable part of the adjustable focusing lens to be stopped in the correct "subject-in-focus" position. For the specific details on how that Closing signal 76 causes the movable lens part to stop, reference is made to the Shenk applications mentioned.

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took. The rectangle 78 shown by dashed lines, which includes the function block 68 for the function lens adjustment, subject distance, indicates that the bracket 68 can be easily removed from the automatic focus control system according to FIG. 3. Due to the development of semiconductor technology it is possible that the objective / subject function of block 68 can be included in an easily removable silicon device with an integrated circuit or in a chip. Such a device ¹ is shown functionally in a portion of Fig. 4a. The camera 79 of FIG. 4a has a detachable focusing lens 80 and an electronic circuit 82 for generating the lens / subject function of the lens 80. The electronic circuit 82 is contained in the housing of the lens 80 in order to be able to communicate with the control system of FIG. 3 when the lens 80 is attached to the camera 79. The attachment of the lens 80 to the camera requires that the circuit 82 or the device containing it with the lens / subject function is replaced by the block 68 for the lens / subject function in the control system according to FIG. 3. In order to fasten the lens 80 to the camera 79, fingers 84 are inserted into openings 86 of the camera, which protrude from the housing of the lens 80. When these fingers 84 have been inserted, there is contact of electrical connection pins 88 on the device 82, which protrude from the lens housing, with the mount 90 of the camera, so that the device 82 with the circuit for generating the lens / subject Function is arranged electrically between the distance counter 82 and the programmable divider. With this arrangement, the lens / subject function of lens 80 included in device 82 programs programmable divider 66 in accordance with that lens / subject function in the same manner as before

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. at-

Block 68, which contains the lens / subject function of lens 12, programmable divider 66 corresponding to FIG Representation programmed in Fig. 3.

Fig. 4b shows an alternative, but less flexible embodiment of the principle described with reference to Fig. 4a .. In Fig. 4b, the distance counter 62 and the programmable Divider 66 components of the control system according to FIG. 3, which function in the same way as in the example according to FIG 3. Between the distance counter 62 and the programmable divider 66 are spring-loaded switches 92 and an OR gate 94 selectively connects two electronic circuits 96 and 98, each of which has a different lens / Contains subject function. When the focusable lens 100 is attached to the camera 102 in the same manner as that focusable lens 80 according to FIG. 4a on the camera 79, then the lens / subject function 96, which the lens / The subject function of the lens 100 is, between the distance counter 62 and the programmable divider 66 in the already connected in the manner described. If the focusable lens 100 is so connected to the camera 102, so the pin 104, which protrudes from the housing of the lens 100, comes into contact with the connector 106 in the camera 102, so that the switch 92 is actuated to the open position in which the lens / subject function device 96 is electrically between the distance counter 62 and the programmable divider 66 is connected. When the lens is 100 from the Camera 102 is removed, the fedcrbolas becomes dead switch gate 92 switched to a position in which the lens / subject functional device 98 is electrically connected between the distance counter 62 and the programmable divider 66. The device 98 for the lens / subject function is provided for another focusable lens, not shown, since it does not have a pin corresponding to pin 104,

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which protrudes from him in order to actuate the switch 92 '. In In this case, the switch 92 thus remains in the mechanical position shown in FIG. 4b when this other is focusable Lens was attached to the camera 102. Both the means 96 and the means 98 for the lens / subject function would program programmable divider 66 in the same basic manner as the block 68 with the objective / subject function the programmable Programmed divider 66 according to FIG. However, these functions would be significantly different from each other and from distinguish the objective / subject function contained in block 68.

FIG. 5 shows the functional block diagram of a coupled range finder and part of the control system for a focusable lens for use with a focusable and a non-focusable lens, similar to that shown in FIG. 3. In Figure 5, switch S ₁ , acoustic distance device 108, time pulse oscillator 110, distance counter 112, lens adjustment / subject distance function 114, programmable divider 116, and position counter 118 function in the same manner as switch S ₁ , the acoustic distance device 54, the time pulse oscillator 60, the distance counter 62, the lens / subject function 68, the programmable divider 66 and the position counter 64 of FIG. 3. In FIG. 5, the position of the movable part of the focusable lens 120 is through a sensor 122 for the lens setting is sensed, which emits pulses which are representative of the setting position of the lens 120, in the same way as the setting of the lens 12 of FIG. 3 is sensed by the sensor 72. Instead of having the output from lens adjustment sensor 122 directly into the

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Position counter 118 as shown in FIG. 3 is performed Forwarding of the output from the position sensor 122 to the position counter 118 via a switching device 124 and a fixed divider 126. The fixed divider 126 is in a block 128 shown by dashed lines to illustrate that it can be easily removed from the control system of FIG. if when the fixed divider 126 is connected to the control system of FIG. 5, the switching device is located 124 in the position shown, so that pulses from the sensor 122 for the lens adjustment via the fixed Divider 126 can be passed to position counter 118. However, when the fixed divider 126 is out of the control system 5 is removed, the removal movement results in an actuation of the switch 124, so that the output from sensor 122 is connected directly to position counter 118 via switch 124. The fixed one Divider 126 is connected to the control system of Fig. 5 when a wide angle lens or a teleconverter lens is connected to the focusable lens 120.

Becomes a so-called fixed focus lens, i.e. one that cannot be focused Lens with a higher magnification with a focusable lens corresponding to lens 120 Combined in FIG. 5, it is known that the focusable lens moves further along its main image axis than would be necessary without the non-focusable lens. To use the focusable lens such as the Lens 120 of Figure 5 to move further than it would move without the addition of the non-focusable lens the fixed divider 126 would decrease the number of pulses received from the lens adjustment sensor 122 the position counter 188 are fed. The position counter 118 must make 128 counts before the 128 count deco

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controller 130 sends a signal 132 for completion of focus generated to end the automatic focusing in the manner described. The position counter 118 receives scale pulses from the time pulse oscillator 110 via the programmable Divider 116, the number of which, subtracted from 128, represents the position on which the movable part of the focusable Lens 120 must be moved in order to focus the lens on the correct "subject-in-focus" position, as already explained. The difference in the number of pulses between the pulses from the time pulse oscillator 110 and the number 128 corresponds to the number of pulses that generated by the lens adjustment sensor 122 without the addition of a non-focusable lens must be, or corresponds to the number of pulses that must be generated by the sensor 122 when it is through the fixed divider 126 was decremented, and if so a non-focusable lens was combined with the focusable lens 120. It is known that the great the adjustment movement of the lens on its image axis for focusing a sharp image of the subject in a given one Image plane in the case of an optical combination with a non-focusable object is equal to the square of the magnification power of the non-focusable lens compared to the distance at which the focusable lens without the Combination with the non-focusable lens would be to move. In accordance with the teachings of this embodiment of the invention becomes a fixed divider 126 having an input / output ratio or a dividing ratio, respectively the square of the magnification power of the non-focusable lens on the housing of the non-focusable lens provided, which is thus removable together with this. Such an arrangement is shown in Fig. 6a.

Fig. 6a shows a camera 134 with a fixed in this camera

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mounted focusable lens 136. In addition, the Camera 134 has a detachable, non-focusable lens 138 which has a device 140 which is a conventional Pulse divider circuit for dividing the input pulses by a factor equal to the square. the magnification power of this fixed focus lens 138 is. The divider 140 is attached to the housing of the lens 138, to connect to the control system of Figure 5 when lens 138 is on that camera 134 is attached. When the lens 138 is attached to the camera, the divider 140 is in place of the fixed divider 126 is inserted into the control system of FIG. When attaching the lens 138 to the Camera 134 are fingers 142 protruding from the lens housing in openings 144 in the housing of the focusable lens 136 pushed in. When the fingers 142 are arranged so stelleta electrical contact pins 146, which are connected to the dividing device 140 are connected and protrude from the housing of the fixed focus lens 138, a connection with the mount 148 of the housing of the focusable lens 136, so that the dividing device 140 electrically between the sensor 122 for the lens adjustment and the position counter 118 connected. The design of the socket 148 is chosen so that before the pins 146 are inserted into the socket The sensor 122 for the lens adjustment is connected directly to the position counter 118 via the mount 148. But when the divider 140 is electrically connected between the sensor 122 and the position counter 118, divides this dividing device 140 the pulses generated by the sensor for the lens adjustment by a Factor which is equal to the square of the magnification factor of the fixed focus objective 138.

Fig. 6b shows an alternative, but less flexible design

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management form of the principle of Fig. 6a. Fig. 6b shows the sensor 122 for the lens adjustment and the part of the control system according to FIG. 5 with the position counter 118. These components function in the same way as in the example of FIG. 5. A dividing device 154 is selective between dome sensor 122 and dome position counter by a spring loaded switch 150 and an OR gate T52 connected. When the fixed focus lens 156 on the camera 158 is attached in the same way as the fixed focus lens 138 according to FIG. 6a on the camera 134, the dividing device is which reduces the input pulses by a ratio equal to the square of the magnification power of the fixed focus lens 156 is to that previously described Way connected between the sensor 122 for the lens adjustment and the position counter 118. if the fixed focus lens 156 in this way with the camera 158 is connected, the pin 160 protruding from the housing of the fixed focus lens 156 is in contact with the Conductor 162 within camera 158 that switches switch 150 in sets a position in which the divider 154 electrically between the sensor 122 and the position counter 118 is connected. When the fixed focus lens 156 from the Camera 158 is removed, the spring loaded switch 150 is set in a position in which the sensor 122 for the lens adjustment is directly connected to the position counter 118 is. If the fixed focus lens 156 is attached to the camera 158, the sensor 122 for the lens adjustment generated pulses by a ratio divided or reduced, which is the same as that Square of the magnification factor of the fixed focus objective 156, as already described. However, if that fix focus Lens 156 is removed from camera 158, so it is not necessary to use the pulses from sensor 122 for the lens unit decrease division. That's why the sensor is

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122 for the lens adjustment directly with the position counter 118 via a switch 150 and an OR gate 152 by removing the fixed focus lens 156 from the camera 158 connected.

In describing the various embodiments of the invention, the device incorporated in either the Lens is provided or is switched into the control system by attaching the lens to the camera, described as a device which is capable of generating an objective / subject function or which is capable is to decrease a series of periodic pulses by a fixed ratio. It remains the constructive execution leave up to whether the various components of the control system for the focusable lens, e.g. accordingly Figures 3 and 5 such as the timing pulse oscillator, counters, programmable divider, etc., individually, together or be included in any combination in the device containing the objective / subject function or into the device containing the fixed divider.

According to Fig. 3 causes; the Lens / Subjokt-Funk Lion 68 den programmable divider 66, the number of pulses of the time pulse oscillator 60, which the position counter 64 fed will change according to the derivative or slope that the curve corresponding to the lens / subject function for the focusable lens 12, as already described. The same setting of the focusable Lens 12 can, however, also be achieved by placing the programmable divider 66 in the signal line over which the actual setting of the movable part of the focusable lens 12 is scanned. One such special arrangement is shown in FIG. there

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are the pulses "of the clock generator 60 or · of the time pulse oscillator fed directly to the position counter 64. If the Distance to a distant object has been determined by the acoustic range finder 54, the focusable Lens 12 set to the "subject-in-focus" position. When the lens 12 moves to this focus position, SQ, the position sensor 52 generates pulses accordingly the lens setting, which go to the distance counter 62 and also via the programmable divider to the distance counter 64. With this arrangement, the dem Position counter 64 pulses supplied by the programmable Divider 66, distance counter 62 and block 68 for the lens setting / subject distance function in FIG in the same way that these components change the pulses that the position counter 64 from the clock 60 correspondingly the embodiment of FIG. 3 are supplied.

According to the example of FIG. 5, the fixed divider 126 sets the pulses from the sensor 122 for lens adjustment down by a fixed ratio to move the focusable lens 120 a greater distance move its image-forming axis when using a fixed focus lens or a lens is attached to a camera having the control system of FIG. The same degree the movement of the focusable lens 120 can also be performed by Inserting a fixed divider 126 between the programmable Divider 116 and position counter 118 rather than between sensor 122 for lens adjustment and this position counter 118. One such The arrangement is shown in FIG. With this arrangement, the position counter 118 receives fewer pulses from the programmable one Divider 116, so that the focusable lens 120 must be moved to the total count of

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necessary due to the 128 count decoder 130 so that it can generate a focus completion signal 132. With the exception the adjustment of the fixed divider 126 just described and the particular impulses it divides when it is switched into the control system by the switching device 124, the control system of FIG. and 8 in the same way to bring the movable part of the focusable lens 12 into position.

In the control system of FIGS. 5 and 8, a
Fixed divider 126 provided because it was assumed
that combined with the focusable lens 120
Fixed focus lens a magnification performance or a
Has a magnification factor of more than 1. However, if the enlargement factor is less than 1, the
fixed divider 126 to a fixed multiplier.

For a person skilled in the art it goes without saying that based on the teaching in the preceding description, various improvements and changes can be made without this deviates from the teaching according to the invention.

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Claims (20)

Claims 1. Camera with auto focus and interchangeable Lenses and / or lenses, characterized by means of an electronic control, which when energized Emit a distance signal that has a given function for the distance of the subject to be photographed from the lens has a corresponding relationship, means for the optional assembly of a focusable assembled from several parts Lens group, each of which has at least one lens portion used for focusing an image of the subject is movable on a recording medium, the movable portion of at least some of them Lens groups have different lens subject functions that determine the relationship between the focused lens position relating to the subject distance, means for adjusting the movable lens part of the lens group mounted on the camera and a focus control circuit for controlling the drive means in response to the distance signal and the Lens subject function of an assembled lens group for adjusting the movable lens part of the group to one Focusing position in which the image of the subject is focused on the recording medium, the focus control circuit having means for converting the distance signal a parameter for the lens position as a function of this lens subject function and for controlling the drive means for the adjustment of the movable lens part of the mounted lens group to one that corresponds to the parameter Position, further characterized in that each of said lens groups has a circuit portion this converting means has to convert their resulting parameters according to the lens subject function of the to change the respective lens group, and that means for connecting this switching device carried by a lens group Q098U / 0811 ORIGINAL INSPECTED circular section with the camera are available if each respective lens group is mounted on it. 2. Photographic camera with means for the optional connection of the camera to an energy source, a camera housing, a film plane arranged in this housing, a lens housing releasably attachable to the camera housing, a focusable lens with at least one movable lens part, the lens in the lens housing is arranged and a certain non-linear relationship between the "subject-in-focus" position of this lens part and the distance to the object to be photographed within the focussing range of the lens, for formation of images of subjects on the film plane that are located within the focus area, means for the Formation of a signal that is representative of the actual distance between the camera and a distant subject is, and means for automatically adjusting the lens part to the correct "subject-in-focus" position in response to this subject distance signal, the means for automatic adjustment comprising a part which the position to which the lens part is set depends on the lens position / subject distance function of the focusable lens, characterized in that this part of the means for automatic lens adjustment, which makes the position to which the lens part is set dependent on the object setting / subject distance function this focusable lens, arranged in this lens housing and removable with this is when the lens housing together with the focusable lens is detached from the camera housing, and that means are present for the connection of this part of the means for the automatic adjustment, which the position on which the lens part is adjusted, makes dependent on the Ö098U / 081I Function lens adjustment / subjective distance with these Means for automatic focusing when the lens housing is attached to the camera housing. 3. Photographic camera with means for the optional Connection of the camera to an energy source, a camera housing, a film plane arranged in the camera housing, a lens housing releasably attached to the camera housing, a focusable lens with at least one movable lens part, the lens in this lens housing is arranged and a certain non-linear relationship between the "subject-in-focus" position of this Objective part and the distance to subjects within the focusing range of the objective, for training of images of subjects on this film level, the are within the focus area, means for the automatic adjustment of the focusable lens to a correct "subject-in-focus" position, with the Means for the automatic adjustment have the following devices: A device for training a Signal that is representative of the actual distance between the camera and a subject distant from it, a device for generating a signal that is representative is for the focused position of this movable lens part of the focusable lens, one means responsive to the subject distance signal for generating a signal representative of the nonlinear relationship between the setting position of the lens part and the subject distance, one to that of the signal corresponding to the focused position of the lens part and that of the non-linear relationship between lens settings and subject distance corresponding signal responsive means for generating a signal which is representative of the position to which the lens 909844/0811 part is to move in order to focus a particular subject on the film plane, and a drive device that responds on the subject distance signal as well as on the signal which is representative of the position at which the lens part to move is to focus the subject on the film plane, characterized in that the facility for the generation of the signal which is representative of the non-linear relationship between the position of the lens part and the subject distance, mounted in and removable with the lens housing when the lens housing is released together with the focusable lens from the camera housing, and that means are available for the connection of this device for the generation of the signal which is representative of the non-linear relationship between the position of the lens part and the subject distance, with these means for automatic adjustment, when the lens case is mounted on the camera body. 4. Photographic camera with means for the optional coupling of the camera with an energy source, a camera housing, a film plane arranged in the camera housing, a lens housing detachably attached to the camera housing, a focusable lens with at least one movable lens part, the lens in the lens housing is arranged and has a certain, non-linear relationship between the "subject-in-focus" position of this Lens part and the distance to the subject within a focusing range of the lens for the formation of images from subjects on the film plane who are within the focus area, means for the automatic Adjustment of the focusable lens to the correct "subject-in-focus" position, this means for the automatic adjustment have the following devices: A device for generating a signal that 9098U / 081t is representative of the actual distance between the Camera and the subject distant from it, a device for generating a signal representative of the focused position of the movable lens portion of the focusable lens, a device that focuses on the Signal for the position of the lens part and the subject distance signal responds to the generation of a signal representative of the nonlinear relationship between the Position of the lens portion and the subject distance, a device responsive to the subject distance signal and to the signal corresponding to the non-linear relationship between the lens setting and the subject distance for the generation of a signal which is representative of the position to which the lens part is to be adjusted to to focus the image of a particular subject on the film plane, and a drive device that responds on the subject distance signal and on the signal that is representative is for the position to which the lens part is to be moved in order to focus this subject on the film plane, characterized in that the means for generating a signal which is representative of the non-linear relationship between the position of the objective part for subject distance, is arranged in the lens housing and can be removed together with this from the camera, if the lens housing is removed from the camera housing together with the focusable lens, and that means are present are for the connection of this facility 'with the automatic Adjustment device that becomes effective when the lens housing is attached to the camera housing. 5. Self-focusing camera with means for generating a distance signal that has a given functional relationship to the subject distance, means for driving a movable part of one attached to the camera 909844/081! Lens arrangement that has a given lens function that focuses on the focused position of the movable Lens part related to the subject distance, and a focus control circuit for controlling the operation of the drive means as a function of the distance signal and the Lens-subject function to adjust the movable lens part to a focused position in which the image of the subject to a recording medium within the The camera is focused, the focus control circuit having a converter for converting a distance signal to a lens parameter in agreement with Lens-subject function, and means are available for controlling the drive means for the adjustment of the movable Lens part to a position in accordance with this parameter and a device for the detachable Attachment of at least one lens part that leads to a second lens-subject function that differs from the first lens-subject function, characterized in that the control circuit has a second Has converter device which applies the distance signal to a second objective parameter in accordance with the second Objective-subject function converts, and that a switching device is available for switching on the second converter device into the focus control circuit which is responsive to the attachment of the lens part to the camera. 6. Photographic camera with means for the optional connection of the camera to an energy source, a camera housing, a film plane arranged in the housing and a lens housing detachably attached to the camera housing, characterized by a focusable lens with at least one movable lens part, which is in the camera housing is appropriate and has a certain non-linear relationship between the "subject-in-focus" position this lens part and the distance to the subject within 909BU / 0811 a focusing area of the lens for the formation of images of subjects on the film plane , which are arranged within the focusing area, a fixed-focus lens with a fixed-focus lens housing, which is detachably attached to the camera, the optical axis of the fix -Focus lens coincides with the optical axis of the focusable lens, means for generating a signal that is representative of the actual distance between the camera and a subject distant from it , means for the automatic adjustment of the lens part to a correct "subject" in-focus "position on the basis of this subject distance signal, and means for changing the position to which the adjustable lens part of the focusable lens is focused by the automatic focusing means by a fixed ratio when the fixed focus lens is attached to the camera . 7. Photographic camera according to claim 6, characterized in that, that the means for changing the position by a certain ratio in the housing of the fixed focus lens are arranged so that they can be removed with the fixed focus lens and with the automatic adjustment device can be connected when the fixed focus lens is attached to the camera. 8. Camera according to claim 7, characterized in that the fixed ratio is greater than 1. 9. Camera according to claim 7, characterized in that the fixed ratio is less than 1. 10. Camera according to claim 7, characterized in that the fixed ratio is equal to the square of the magnification power of the fixed focus lens. S098U / 0811 11. Photographic camera with means for optional Connection of the camera to an energy source, a camera housing, a film plane arranged in the camera housing, a detachably attached to the camera housing ton lens housing, a focusable lens with at least one movable lens part, which is mounted in the lens housing and has a certain non-linear relationship between the "subject-in-focus" position of the lens part and the Distance to the subject within the focussing range of the lens for the formation of an image on the film plane of subjects who are within the focussing range are located, a fixed focus lens with a housing, this lens is detachably attached to the camera and has an optical axis coincident with the optical axis of the focusable lens, and means for which automatic adjustment of the focusable lens to the correct "subject-in-focus" position, characterized in that that these means for automatic adjustment have the following facilities: A facility for the Generation of a signal which is representative of the actual distance between the camera and one of it distant subject, a device for generating a signal representative of the in-focus position of the moving part of the focusable lens, a device for generating a signal that turns around a fixed ratio of the in-focus position of the lens part changed, a device based on the The subject distance signal is responsive to the generation of a signal representative of the nonlinear relationship between the position of the lens part and the subjoct distance, and drive means responsive to the signal corresponding to the non-linear relationship between the position of the lens part to the subject distance as well as to the signal corresponding to the changed focused position 909844/0811 of the lens part when the fixed focus lens is attached to the camera, wherein the drive device continues is responsive to the signal corresponding to the non-linear relationship between the position of the lens part and the subject distance and to the signal corresponding to the focused position of the lens part when the fixed focus lens is released from the camera in order to adjust the movable lens part to the correct "subject-in-focus" position. 12. Camera according to claim 11, characterized in that the device for changing the position by a fixed ratio on which the focusable lens is due the focusing device is focused, is provided in the housing of the fixed focus lens, so that it is with this is removable and connected to the automatic adjustment device when the fixed focus lens is on the camera is attached. 13. Camera according to claim 12, characterized in that the fixed ratio is greater than 1. 14. Camera according to claim 12, characterized in that the fixed ratio is less than 1. 15. Camera according to claim 12, characterized in that the fixed ratio is equal to the square of the magnification power of the fixed focus lens. 16. Photographic camera with means for the optional coupling with an energy source, a camera housing, a arranged in the camera housing film plane, a releasably attached to the camera housing lens housing, a focusable Lens with at least one movable lens part, which is mounted in the lens housing and a 909844/0811 Correctly exhibits a nonlinear relationship between subject-in-focus position of the lens part and the distance to the subject within the focusing range of the lens for the formation of an image of the subject on the film plane, which is located within the focus area, a fixed focus lens with a housing that is detachably attached to the camera, the optical axis of the fixed focus lens coincides with the optical axis of the focusable lens, and means for automatic adjustment the focusable lens to a correct "subject-in-focus" position, characterized in that the automatic setting device has the following devices: a device for generating a signal, that is representative of the actual distance between the camera and a subject distant from it, a device for the generation of a signal which is representative of the focused position of the movable lens part the focusable lens, a device for generating a signal that has a fixed ratio differs from the signal corresponding to the focused position of the lens part, a device that responds on the signal for the position of the lens part as well as on the subject distance signal for the generation of a Signal that is representative of the non-linear relationship between the position of the positive part and the subject distance, and drive means responsive to the non-linear relationship between the position of the lens part and the signal corresponding to the subject distance as well as the signal for the changed focused position of the Lens part, if the fixed focus lens is attached to the camera, and which responds to these signals, if that Fix-focus lens is detached from the camera to move the movable lens part to the correct "subject-in-focus" position to adjust. 90 9844/0811 17. Photographic camera according to claim 16, characterized in that that the facility for changing the position by a fixed ratio to which the fecussable Lens is focused by the focusing device, can be removed from the camera together with the fixed focus lens and when the fixed focus lens is attached to the Camera is connected to the automatic setting device. 18. Camera according to claim 17, characterized in that the fixed ratio is greater than 1. 19. Camera according to claim 17, characterized in that the fixed ratio is less than 1. 20. Camera according to claim 17, characterized in that the ratio is equal to the square of the magnification power of the fixed focus lens. 909844/0811